Cross Characterization of Alpine Snow Packs Using a Portable 3-D HR Imaging System, C-Band Spaceborne SAR Observations, In-Situ Measurements and a Physically Based Snow Evolution Model

Cross Characterization of Alpine Snow Packs Using a Portable 3-D HR Imaging System, C-Band Spaceborne SAR Observations, In-Situ Measurements and a Physically Based Snow Evolution Model

This paper proposes to use ground-based high-resolution 3-D radar imaging, in order to study the interaction between electromagnetic waves and snow packs, and to provide a physical interpretation for the reflectivity of Sentinel 1 images over snow covered regions. Preliminary results show that, acco...

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Bibliographic Details
Published in:2021 IEEE International Geoscience and Remote Sensing Symposium IGARSS pp. 856 - 859
Main Authors: Ferro-Famil, L., Karbou, F., Harkati, L., Lapalus, Ph, Avrillon, S., Boutet, F., Deliot, Y., Mersizen, H., Goutevin, I., Salze, P., Delbart, F., Karas, A., Besombes, R., Le Gac, E., Bellot, H., Ravanat, X.
Format: Conference Proceeding
Language:English
Published: IEEE 11-07-2021
Subjects:
C-band
Imaging
Reflectivity
SAR tomography
Snow
snow remote sensing
snowpack 3D imaging
Solid modeling
Spaceborne radar
Three-dimensional displays
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Summary:This paper proposes to use ground-based high-resolution 3-D radar imaging, in order to study the interaction between electromagnetic waves and snow packs, and to provide a physical interpretation for the reflectivity of Sentinel 1 images over snow covered regions. Preliminary results show that, according to usually assumed behaviors, fresh snow has an extremely low reflectivity at C band, and wet snow does not let waves go through. Between these two extreme configurations, this study reveals that snow packs may have complex and significant scattering patterns, mainly due to the presence of transformed snow and of rough interfaces between the layers, again due to transformation phenomena.
ISSN:2153-7003
DOI:10.1109/IGARSS47720.2021.9553109